Degallaix a three dimensional discrete dislocation dynamics analysis of cyclic straining in 316L stainless steel. - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Materials Science Forum Année : 2005

Degallaix a three dimensional discrete dislocation dynamics analysis of cyclic straining in 316L stainless steel.

Résumé

The early stages of the formation of dislocation microstructures in low strain fatigue are analysed,using three-dimensional discrete dislocation dynamics modelling (DDD). A detailed analysis of the simulated microstructures provide a detailed scheme for the persistent slip band formation, emphasizing the crucial role of cross-slip for both the initial strain spreading inside of the grain and for the subsequent strain localization in the form of slip bands. A new ad-hoc posttreatment tool evaluates the surface roughness as the cycles proceed. Slip markings and their evolutions are analysed, in relation to the dislocation microstructure. This dislocation-based study emphasizes the separate contribution of plastic slip in damage nucleation. A simple 1D dislocation based model for work-hardening in crystal plasticity is proposed. In this model, the forest dislocations are responsible for friction stress (isotropic work-hardening), while dislocation pile-ups and dislocation trapped in Persistent Slip Bands (PSB) produce the back stress (kinematic workhardening). The model is consistent with the stress-strain curves obtained in DDD. It is also consistent with the stress-strain curves experimentally obtained for larger imposed strain amplitudes.
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Dates et versions

hal-00572759 , version 1 (02-03-2011)

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  • HAL Id : hal-00572759 , version 1

Citer

Christophe Déprés, C. Robertson, Marc Fivel. Degallaix a three dimensional discrete dislocation dynamics analysis of cyclic straining in 316L stainless steel.. Materials Science Forum, 2005, 482, pp. 163-166. ⟨hal-00572759⟩
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